Innovative Solutions for Sustainability

We leverage context-aware language models to manage vertical green walls, integrating sensor data for sustainable maintenance and early stress detection.

Vertical garden composed of wooden slats arranged in a diagonal, crisscross pattern, with various types of green foliage and vibrant yellow flowers interspersed throughout. Succulents and ferns add texture and diversity to the lush greenery.
Vertical garden composed of wooden slats arranged in a diagonal, crisscross pattern, with various types of green foliage and vibrant yellow flowers interspersed throughout. Succulents and ferns add texture and diversity to the lush greenery.
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An indoor area with a large vertical garden wall covered in green foliage. The space is brightly lit by natural light coming through tall, frosted windows on the left and opposite walls. The walls are white, giving the area a clean and modern look. There are stairs visible on the right side leading to another level.
An indoor area with a large vertical garden wall covered in green foliage. The space is brightly lit by natural light coming through tall, frosted windows on the left and opposite walls. The walls are white, giving the area a clean and modern look. There are stairs visible on the right side leading to another level.
A vertical wall covered in lush green moss with small cascading waterfalls running down the surface. The moss appears vibrant and richly textured, creating a natural and serene environment.
A vertical wall covered in lush green moss with small cascading waterfalls running down the surface. The moss appears vibrant and richly textured, creating a natural and serene environment.

Our Research Focus

Our project aims to unify fragmented sensor data, adapting to urban environments to ensure optimal plant health and resource management.